Abstract
β-Galactosidases can transfer the galactosyl from lactose or galactoside donors to various acceptors and thus are especially useful for the synthesis of important glycosides. However, these enzymes have limitations in the glycosylation of phenolic compounds that have many physiological functions. In this work, the β-galactosidase from Lactobacillus bulgaricus L3 was subjected to site-saturation mutagenesis at the W980 residue. The recombinant pET-21b plasmid carrying the enzyme gene was used as the template for mutation. The mutant plasmids were transformed into Escherichia coli cells for screening. One recombinant mutant, W980F, exhibited increased yield of glycoside when using hydroquinone as the screening acceptor. The enzyme was purified and the effects of the mutation on enzyme properties were determined in detail. It showed improved transglycosylation activity on novel phenolic acceptors besides hydroquinone. The yields of the glycosides produced from phenol, hydroquinone, and catechol were increased by 7.6% to 53.1%. Moreover, it generated 32.3% glycosides from the pyrogallol that could not be glycosylated by the wild-type enzyme. Chemical structures of these glycoside products were further determined by MS and NMR analysis. Thus, a series of novel phenolic galactosides were achieved by β-galactosidase for the first time. This was a breakthrough in the enzymatic galactosylation of the challenging phenolic compounds of great values.
Highlights
The transglycosylation with the phenolic compounds were performed at 45°C for 45 min in 50 μL mixtures containing 0.2 μg of pure enzyme, 200 mM of lactose and 100 mM of each acceptor including phenol, hydroquinone, catechol, and pyrogallol
As for β-galactosidases, the mechanism of the enzyme from E. coli has been clearly elucidated with so many crystallographic structures such as PDB 1DP0, 1JYN and 1JYV
The putative 3D-structure of bulgaricus L3 (BgaL3) revealed the residue (W980) paralleling to E. coli W999 located at the entrance of the active center while the putative catalytic residues
Summary
Β-Galactosidases produced the glycoside chemicals through galactosyl transfer from lactose or galactoside donors to various acceptors. The transglycosylation with the phenolic compounds were performed at 45°C for 45 min in 50 μL mixtures (pH 7) containing 0.2 μg of pure enzyme, 200 mM of lactose and 100 mM of each acceptor including phenol, hydroquinone, catechol, and pyrogallol. Site-saturation mutagenesis of BgaL3 and screening of mutants with improved transglycosylation activity on phenolic compound
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